Sequential numerical methods for integrating initial value problems (IVPs) can be prohibitively expensive when high numerical accuracy is required over the entire interval of integration. One remedy is to integrate in a parallel fashion, "predicting" the solution serially using a cheap (coarse) solver and "correcting" these values using an expensive (fine) solver that runs in parallel on a number of temporal subintervals. In this work, we propose a time-parallel algorithm (GParareal) that solves IVPs by modelling the correction term, i.e. the difference between fine and coarse solutions, using a Gaussian process emulator. This approach compares favourably with the classic parareal algorithm and we demonstrate, on a number of IVPs, that GPar...
A common idea in the PinT community is that Parareal, one of the most popular time-parallel algorith...
This paper is the basic one of the series resulting from the minisymposium entitled “Recent Advances...
In this paper we propose a parallel implementation of one-step methods with stepsize control for the...
Parareal is a well-studied algorithm for numerically integrating systems of time-dependent different...
AbstractThis paper presents a new ‘Parareal-algorithm’ to solve time-dependent ODEs parallel in time...
The parallel solution of initial value problems for ordinary differential equations (ODE-IVPs) has r...
We propose a modified parallel-in-time - Parareal - multi-level time integration method which, in co...
The parallel solution of initial value problems for ordinary differential equations (ODE-IVPs) has b...
International audienceIn this paper, we consider the problem of accelerating the numerical simulatio...
The parareal algorithm introduced in 2001 by Lions, Maday, and Turinici is an iterative method for t...
The parareal algorithm seeks to extract parallelism in the time-integration direction of time-depend...
16 pages, 12 figures.It is shown that numerical simulations of fully-developed plasma turbulence can...
AbstractIn this paper we propose a parallel implementation of one-step methods with stepsize control...
Direct Numerical Simulation of turbulent flows is a computationally demanding problem that requires ...
© 2014, Society for Industrial and Applied Mathematics. Available online at http://epubs.siam.org/do...
A common idea in the PinT community is that Parareal, one of the most popular time-parallel algorith...
This paper is the basic one of the series resulting from the minisymposium entitled “Recent Advances...
In this paper we propose a parallel implementation of one-step methods with stepsize control for the...
Parareal is a well-studied algorithm for numerically integrating systems of time-dependent different...
AbstractThis paper presents a new ‘Parareal-algorithm’ to solve time-dependent ODEs parallel in time...
The parallel solution of initial value problems for ordinary differential equations (ODE-IVPs) has r...
We propose a modified parallel-in-time - Parareal - multi-level time integration method which, in co...
The parallel solution of initial value problems for ordinary differential equations (ODE-IVPs) has b...
International audienceIn this paper, we consider the problem of accelerating the numerical simulatio...
The parareal algorithm introduced in 2001 by Lions, Maday, and Turinici is an iterative method for t...
The parareal algorithm seeks to extract parallelism in the time-integration direction of time-depend...
16 pages, 12 figures.It is shown that numerical simulations of fully-developed plasma turbulence can...
AbstractIn this paper we propose a parallel implementation of one-step methods with stepsize control...
Direct Numerical Simulation of turbulent flows is a computationally demanding problem that requires ...
© 2014, Society for Industrial and Applied Mathematics. Available online at http://epubs.siam.org/do...
A common idea in the PinT community is that Parareal, one of the most popular time-parallel algorith...
This paper is the basic one of the series resulting from the minisymposium entitled “Recent Advances...
In this paper we propose a parallel implementation of one-step methods with stepsize control for the...